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/data/git/CMSSW_5_3_11_patch5/src/EventFilter/CSCRawToDigi/src/CSCTMBHeader2006.cc

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00001 #include "EventFilter/CSCRawToDigi/interface/CSCTMBHeader2006.h"
00002 #include "EventFilter/CSCRawToDigi/interface/CSCDMBHeader.h"
00003 #include "FWCore/Utilities/interface/Exception.h"
00004 
00005 CSCTMBHeader2006::CSCTMBHeader2006() 
00006 {
00007     bzero(data(), sizeInWords()*2);
00008     bits.nHeaderFrames = 26;
00009     bits.e0bline = 0x6E0B;
00010     bits.b0cline = 0x6B0C;
00011     bits.nTBins = 7;
00012     bits.nCFEBs = 5;
00013 }
00014 
00015 
00016 CSCTMBHeader2006::CSCTMBHeader2006(const unsigned short * buf)
00017 {
00018   memcpy(&bits, buf, sizeInWords()*2);
00019 }
00020 
00021 void CSCTMBHeader2006::setEventInformation(const CSCDMBHeader & dmbHeader) 
00022 {
00023     bits.cscID = dmbHeader.dmbID();
00024     bits.l1aNumber = dmbHeader.l1a();
00025     bits.bxnCount = dmbHeader.bxn();
00026 }
00027 
00029 std::vector<CSCCLCTDigi> CSCTMBHeader2006::CLCTDigis(uint32_t idlayer) 
00030 {
00031     std::vector<CSCCLCTDigi> result;
00034     int shape=0;
00035     int type=0;
00036 
00037     if ( bits.firmRevCode < 3769 ) { //3769 is may 25 2007 - date of firmware with halfstrip only patterns
00038     shape = bits.clct0_shape;
00039     type  = bits.clct0_strip_type;
00040     }else {//new firmware only halfstrip pattern => stripType==1 and shape is 4 bits
00041       shape = ( bits.clct0_strip_type<<3)+bits.clct0_shape;
00042       type = 1;
00043     }
00044     int strip = bits.clct0_key;
00045     int cfeb = (bits.clct0_cfeb_low)|(bits.clct0_cfeb_high<<1);
00046     int bend = bits.clct0_bend;
00047     //offlineStripNumbering(strip, cfeb, shape, bend);
00048 
00049     CSCCLCTDigi digi0(bits.clct0_valid, bits.clct0_quality, shape,
00050                       type, bend, strip, cfeb, bits.clct0_bxn, 1, bits.bxnPreTrigger);
00051     //digi0.setFullBX(bits.bxnPreTrigger);
00052     result.push_back(digi0);
00053 
00055     if ( bits.firmRevCode < 3769 ) {
00056       shape = bits.clct1_shape;
00057       type  = bits.clct1_strip_type;
00058     } else {
00059       shape = (bits.clct1_strip_type<<3)+bits.clct1_shape;
00060       type = 1;
00061     }
00062 
00063     strip = bits.clct1_key;
00064     cfeb = (bits.clct1_cfeb_low)|(bits.clct1_cfeb_high<<1);
00065     bend = bits.clct1_bend;
00066     //offlineStripNumbering(strip, cfeb, shape, bend);
00067     CSCCLCTDigi digi1(bits.clct1_valid, bits.clct1_quality, shape,
00068                       type, bend, strip, cfeb, bits.clct1_bxn, 2, bits.bxnPreTrigger);
00069     //digi1.setFullBX(bits.bxnPreTrigger);
00070     result.push_back(digi1);
00071     return result;
00072 }
00073 
00075 std::vector<CSCCorrelatedLCTDigi> CSCTMBHeader2006::CorrelatedLCTDigis(uint32_t idlayer) const 
00076 {
00077     std::vector<CSCCorrelatedLCTDigi> result;
00079     int strip = bits.MPC_Muon0_halfstrip_clct_pattern;//this goes from 0-159
00080     //offlineHalfStripNumbering(strip);
00081     CSCCorrelatedLCTDigi digi(1, bits.MPC_Muon0_vpf_, bits.MPC_Muon0_quality_,
00082                               bits.MPC_Muon0_wire_, strip, bits.MPC_Muon0_clct_pattern_,
00083                               bits.MPC_Muon0_bend_, bits.MPC_Muon0_bx_, 0,
00084                               bits.MPC_Muon0_bc0_, bits.MPC_Muon0_SyncErr_,
00085                               bits.MPC_Muon0_cscid_low | (bits.MPC_Muon0_cscid_bit4<<3) );
00086     result.push_back(digi);
00088     strip = bits.MPC_Muon1_halfstrip_clct_pattern;//this goes from 0-159
00089     //offlineHalfStripNumbering(strip);
00090     digi = CSCCorrelatedLCTDigi(2, bits.MPC_Muon1_vpf_, bits.MPC_Muon1_quality_,
00091                                 bits.MPC_Muon1_wire_, strip, bits.MPC_Muon1_clct_pattern_,
00092                                 bits.MPC_Muon1_bend_, bits.MPC_Muon1_bx_, 0,
00093                                 bits.MPC_Muon1_bc0_, bits.MPC_Muon1_SyncErr_,
00094                                 bits.MPC_Muon1_cscid_low | (bits.MPC_Muon1_cscid_bit4<<3) );
00095     result.push_back(digi);
00096     return result;
00097 }
00098 
00099 void
00100 CSCTMBHeader2006::addALCT0(const CSCALCTDigi & digi)
00101 {
00102   throw cms::Exception("In CSC TMBHeaderFormat 2006, ALCTs belong in ALCT header");
00103 }
00104 
00105 
00106 void
00107 CSCTMBHeader2006::addALCT1(const CSCALCTDigi & digi)
00108 {
00109   throw cms::Exception("In CSC TMBHeaderFormat 2006, ALCTs belong in ALCT header");
00110 }
00111 
00112 void
00113 CSCTMBHeader2006::addCLCT0(const CSCCLCTDigi & digi)
00114 {
00115   int strip = digi.getStrip();
00116   int cfeb = digi.getCFEB();
00117   int bend = digi.getBend();
00118   int pattern = digi.getPattern();
00119   //hardwareStripNumbering(strip, cfeb, pattern, bend);
00120   bits.clct0_valid = digi.isValid();
00121   bits.clct0_quality = digi.getQuality();
00122   bits.clct0_shape = pattern;
00123   bits.clct0_strip_type = digi.getStripType();
00124   bits.clct0_bend = bend;
00125   bits.clct0_key = strip;
00126   bits.clct0_cfeb_low = (cfeb & 0x1);
00127   bits.clct0_cfeb_high = (cfeb>>1);
00128   bits.clct0_bxn = digi.getBX();
00129   bits.bxnPreTrigger = digi.getFullBX();
00130 }
00131 
00132 void
00133 CSCTMBHeader2006::addCLCT1(const CSCCLCTDigi & digi)
00134 {
00135   int strip = digi.getStrip();
00136   int cfeb = digi.getCFEB();
00137   int bend = digi.getBend();
00138   int pattern = digi.getPattern();
00139   //hardwareStripNumbering(strip, cfeb, pattern, bend);
00140   bits.clct1_valid = digi.isValid();
00141   bits.clct1_quality = digi.getQuality();
00142   bits.clct1_shape = pattern;
00143   bits.clct1_strip_type = digi.getStripType();
00144   bits.clct1_bend = bend;
00145   bits.clct1_key = strip;
00146   bits.clct1_cfeb_low = (cfeb & 0x1);
00147   bits.clct1_cfeb_high = (cfeb>>1);
00148   bits.clct1_bxn = digi.getBX();
00149   bits.bxnPreTrigger = digi.getFullBX();
00150 }
00151 
00152 void
00153 CSCTMBHeader2006::addCorrelatedLCT0(const CSCCorrelatedLCTDigi & digi)
00154 {
00155   int halfStrip = digi.getStrip();
00156   //hardwareHalfStripNumbering(halfStrip);
00157 
00158   bits.MPC_Muon0_vpf_ = digi.isValid();
00159   bits.MPC_Muon0_wire_ = digi.getKeyWG();
00160   bits.MPC_Muon0_clct_pattern_ = digi.getPattern();
00161   bits.MPC_Muon0_quality_ = digi.getQuality();
00162   bits.MPC_Muon0_halfstrip_clct_pattern = halfStrip;
00163   bits.MPC_Muon0_bend_ = digi.getBend();
00164   bits.MPC_Muon0_SyncErr_ = digi.getSyncErr();
00165   bits.MPC_Muon0_bx_ = digi.getBX();
00166   bits.MPC_Muon0_bc0_ = digi.getBX0();
00167   bits.MPC_Muon0_cscid_low = digi.getCSCID() & 0x7;
00168   bits.MPC_Muon0_cscid_bit4 = (digi.getCSCID()>>3) & 0x1;
00169 }
00170 
00171 void
00172 CSCTMBHeader2006::addCorrelatedLCT1(const CSCCorrelatedLCTDigi & digi)
00173 {
00174   int halfStrip = digi.getStrip();
00175   //hardwareHalfStripNumbering(halfStrip);
00176 
00177   bits.MPC_Muon1_vpf_ = digi.isValid();
00178   bits.MPC_Muon1_wire_ = digi.getKeyWG();
00179   bits.MPC_Muon1_clct_pattern_ = digi.getPattern();
00180   bits.MPC_Muon1_quality_ = digi.getQuality();
00181   bits.MPC_Muon1_halfstrip_clct_pattern = halfStrip;
00182   bits.MPC_Muon1_bend_ = digi.getBend();
00183   bits.MPC_Muon1_SyncErr_ = digi.getSyncErr();
00184   bits.MPC_Muon1_bx_ = digi.getBX();
00185   bits.MPC_Muon1_bc0_ = digi.getBX0();
00186   bits.MPC_Muon1_cscid_low = digi.getCSCID() & 0x7;
00187   bits.MPC_Muon0_cscid_bit4 = (digi.getCSCID()>>3) & 0x1;
00188 }
00189 
00190 
00191 void CSCTMBHeader2006::print(std::ostream & os) const
00192 {
00193   os << "...............TMB Header.................." << "\n";
00194   os << std::hex << "BOC LINE " << bits.b0cline << " EOB " << bits.e0bline << "\n";
00195   os << std::dec << "fifoMode = " << bits.fifoMode
00196      << ", nTBins = " << bits.nTBins << "\n";
00197   os << "dumpCFEBs = " << bits.dumpCFEBs << ", nHeaderFrames = "
00198      << bits.nHeaderFrames << "\n";
00199   os << "boardID = " << bits.boardID << ", cscID = " << bits.cscID << "\n";
00200   os << "l1aNumber = " << bits.l1aNumber << ", bxnCount = " << bits.bxnCount << "\n";
00201   os << "preTrigTBins = " << bits.preTrigTBins << ", nCFEBs = "<< bits.nCFEBs<< "\n";
00202   os << "trigSourceVect = " << bits.trigSourceVect
00203      << ", activeCFEBs = " << bits.activeCFEBs << "\n";
00204   os << "bxnPreTrigger = " << bits.bxnPreTrigger << "\n";
00205   os << "tmbMatch = " << bits.tmbMatch << " alctOnly = " << bits.alctOnly
00206      << " clctOnly = " << bits.clctOnly
00207      << " alctMatchTime = " << bits.alctMatchTime << "\n";
00208   os << "hs_thresh = " << bits.hs_thresh << ", ds_thresh = " << bits.ds_thresh
00209      << "\n";
00210   os << ".clct0_key = " << bits.clct0_key << " clct0_shape = " << bits.clct0_shape
00211      << " clct0_quality = " << bits.clct0_quality << "\n";
00212   os << "r_buf_nbusy = " << bits.r_buf_nbusy << "\n";
00213   os << "Firmware Rev code " << bits.firmRevCode << "\n";
00214   os << "..................CLCT....................." << std::endl;
00215 }
00216 
00217 
00218 //unsigned short * data()  = 0;
00219